Hydrogen generator designed for use with gas and diesel engines

ABSTRACT

The invention is a unit that produces Hydrogen Gas (Browns Gas (HHO)) that can be used as an assist to diesel and gas engines. The gas is produced from distilled water, using our stainless steel plate design. The patent should apply to the internal plate placement and design. The internal design of the unit allows it to produce significantly more hydrogen, drawing significantly less current or electricity from its power source. The internal design is in the placement of positive, negative and neutral plates to produce the gas.

The invention is a unit that produces Hydrogen Gas (Browns Gas (HHO)) that can be used as an assist to diesel and gasoline engines. The gas is produced from distilled water, using our stainless steel plate design. The patent should apply to the internal plate placement and design. The internal design of the unit allows it to produce significantly more hydrogen, drawing significantly less current or electricity from its power source. The internal design is in the placement of positive, negative and neutral plates to produce the gas.

The objective of our invention is to increase the efficiency of diesel and gasoline internal combustion engines. Our primary purpose is to enrich the air that is drawn thru the air filters, thus making it more combustible and doing a better job of igniting the fuel in the combustion chambers. Due to a better burning of the fuel; less fuel is needed to do the same amount of work. That is where the efficiency comes from. We are just getting a better burn on the same fuel that is already being used. The hydrogen (HHO) is supplied to the engine along with its normal fuel and air. The engines efficiency is increased along with power. The efficiency increase is in the 20-30 percent range. The engine also emits fewer pollutants into the atmosphere as a result of burning the hydrogen and less diesel or gasoline. The remaining exhaust is cleaner as there is a more complete burn of the fuel in the combustion chambers. The carbon footprint from most engines is from the result of unburned fuel. As our process allows for a nearly 100% burn, we nearly eliminate the carbon resulting from unburned fuels. The internal design of the unit is what we wish to patent. This design relates to plate placement of positive, negative and neutral stainless steel plates.

To construct a unit you need a watertight, airtight container, we use stainless. The size of the container will vary depending on the number of cells and size of the plates needed in the application. A cell consists of a plate that will be connected to the positive terminal of a 12-volt battery, two plates that will be connected to the negative terminal of a 12-volt battery and several neutral plates. The neutral plates go between the positive and negative plates. The plate size and placement will determine the amount of hydrogen produced. A cell consists of 2 negative, 1 positive and six neutral plates. Place three neutral plates on each side of the positive plate. Each cell has one positive plate. The negative plates are double plates with ⅛ inch spacing. The plates must be insulated from each other and there should be spacing between the sides of the container and the plates. Once the plates are in, place a cover on the container and seal it. A gas outlet that a hose can be hooked to must be placed on the top of the container. Hooking a three-cell unit like is shown in the picture; to a 12 volt battery will produce enough hydrogen (HHO) to give a fuel economy increase of 20 to 30 percent increase to a diesel semi tractor. The hydrogen (HHO) gas output is fed to the air intake of the engine. Consideration should be given to passing the gas through a devise such as a water bubbler to prevent any possibility of a flash back from an engine backfire. The solution in the container consists of distilled water with a teaspoon of potassium hydroxide. Regular tap water can be used but this tends to corrode the plates.

The attached pictures show a cell construction diagram along with pictures of how the unit is constructed and a prototype in use.

FIG. 1 is a drawing of internal plate construction of the Hydrogen Unit. The black lines represent the ground plates, the common grounds are double plates with ⅛ spacing between them. All ground plates are hooked to a single ground point. The blue lines show the neutral, or resistance plates. These are NOT hooked to any electrical potential; they become active as electricity passes through them on the way. The red lines show the positive plates, each of which has its own power source.

The above shows a 3-cell unit, named for the number of positive plates. Spacing and number of neutral plates has varied. Current spacing is on ½ centers, with 3 neutral plates. The number of cells, along with plate size, varies with application.

FIG. 2 through 8 shows drawings used to construct the current unit.

FIG. 9 through 15 shows the plates that are used to make up the cell construction. 

1. An apparatus for generating hydrogen comprising: a battery; an airtight, watertight container housing at least one cell; said cell comprising; a first plate connected to a positive terminal of said battery; a second and third plate connected to a negative terminal of said battery; and six neutral plates arranged between said first plate and said second and third plates; wherein water introduced into the cell is converted to hydrogen gas for use in a gas or diesel combustion engine. 